2011
DOI: 10.1038/nn.2873
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Laminin-332 coordinates mechanotransduction and growth cone bifurcation in sensory neurons

Abstract: 2 These authors made an equal contribution. Basement membrane molecules such as laminin are important structural components of the skin 1-4 , but also serve as substrates for sensory neurons of the dorsal root ganglia (DRG) to grow in culture 5 . The main function of sensory neurons innervating the skin is to detect and relay relevant sensory stimuli, in particular mechanical stimuli 6 . It has long been known that sensory neurons with a nociceptive function (detecting potentially harmful stimuli) can have th… Show more

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Cited by 62 publications
(79 citation statements)
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“…Moreover, fine filament-like structures emanate from hemi-desmosomes positioned along the outer membranes of hair follicle epithelial cells, and these filaments, or putative tethers, extend through the basal lamina and appear to come in direct contact with the plasma membranes of both LTMR lanceolate axonal ending protrusions and TSCs (Li and Ginty, 2014). Because in vitro findings implicate tethers emanating from primary mechanosensory neurons as essential for mechanotransduction (Chiang et al, 2011), we previously speculated that the filamentous connections between epithelial cells and LTMR membranes mediate mechanotransduction in vivo, transducing hair deflection into lanceolate axon depolarization and LTMR excitation. Such a function of putative lanceolate complex tethers may thus be analogous to that of the tip links that extend between stereocilia of mechanosensory hair cells of the inner ear and that mediate mechanotransduction in the auditory and vestibular systems.…”
Section: Discussionmentioning
confidence: 99%
“…Moreover, fine filament-like structures emanate from hemi-desmosomes positioned along the outer membranes of hair follicle epithelial cells, and these filaments, or putative tethers, extend through the basal lamina and appear to come in direct contact with the plasma membranes of both LTMR lanceolate axonal ending protrusions and TSCs (Li and Ginty, 2014). Because in vitro findings implicate tethers emanating from primary mechanosensory neurons as essential for mechanotransduction (Chiang et al, 2011), we previously speculated that the filamentous connections between epithelial cells and LTMR membranes mediate mechanotransduction in vivo, transducing hair deflection into lanceolate axon depolarization and LTMR excitation. Such a function of putative lanceolate complex tethers may thus be analogous to that of the tip links that extend between stereocilia of mechanosensory hair cells of the inner ear and that mediate mechanotransduction in the auditory and vestibular systems.…”
Section: Discussionmentioning
confidence: 99%
“…Their role has mainly been explored from the perspective of an anchoring function that serves to tether mechanosensitive ion channels in the membrane. Further support for a tethered mechanotransduction complex comes from observations in sensory neurons where a physical tether has been described that may link mechanosensitive ion channels to the extracellular matrix (Chiang et al, 2011; Hu et al, 2010). It is possible that acetylated tubulin serves as a coordination point for these tethers in the mechanotransduction complex, and that in its absence misorganization of the microtubule network leads to reduced force transfer from the extracellular matrix to ion channels.…”
Section: Discussionmentioning
confidence: 99%
“…Ganglia were cleaned, enzymatically treated and mechanically dispersed58. The isolated neurons were seeded on poly- L -lysine and laminin-coated coverslips.…”
Section: Methodsmentioning
confidence: 99%
“…Membrane current and voltage were amplified and acquired using EPC-10 amplifier sampled at 10 kHz. For the perforated-patch recording, 0.1% Lucifer Yellow and 50–100 μg ml −1 gramicidin were included in the internal solution2458. The formation of gramicidin perforation were monitored by the HEKA Patchmaster programme and the measurement was started until serious resistance dropped to <40 MΩ.…”
Section: Methodsmentioning
confidence: 99%